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Newton-Raphson Method

Newton-Raphson Method. Industrial Engineering Majors Authors: Autar Kaw, Jai Paul http://numericalmethods.eng.usf.edu Transforming Numerical Methods Education for STEM Undergraduates. Newton-Raphson Method http://numericalmethods.eng.usf.edu. Newton-Raphson Method.

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Newton-Raphson Method

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  1. Newton-Raphson Method Industrial Engineering Majors Authors: Autar Kaw, Jai Paul http://numericalmethods.eng.usf.edu Transforming Numerical Methods Education for STEM Undergraduates http://numericalmethods.eng.usf.edu

  2. Newton-Raphson Methodhttp://numericalmethods.eng.usf.edu

  3. Newton-Raphson Method Figure 1 Geometrical illustration of the Newton-Raphson method. http://numericalmethods.eng.usf.edu 3

  4. Derivation Figure 2 Derivation of the Newton-Raphson method. http://numericalmethods.eng.usf.edu

  5. Algorithm for Newton-Raphson Method http://numericalmethods.eng.usf.edu

  6. Step 1 Evaluate symbolically. http://numericalmethods.eng.usf.edu 6

  7. Step 2 Use an initial guess of the root, , to estimate the new value of the root, , as http://numericalmethods.eng.usf.edu 7

  8. Step 3 Find the absolute relative approximate error as http://numericalmethods.eng.usf.edu 8

  9. Step 4 Compare the absolute relative approximate error with the pre-specified relative error tolerance . Also, check if the number of iterations has exceeded the maximum number of iterations allowed. If so, one needs to terminate the algorithm and notify the user. Go to Step 2 using new estimate of the root. Yes Is ? No Stop the algorithm http://numericalmethods.eng.usf.edu 9

  10. Example You are working for a start-up computer assembly company and have been asked to determine the minimum number of computers that the shop will have to sell to make a profit. The equation that gives the minimum number of computers ‘x’ to be sold after considering the total costs and the total sales is: http://numericalmethods.eng.usf.edu

  11. Example 1 Cont. • Use the Newton-Raphson method of finding roots of equations to find • The minimum number of computers that need to be sold to make a profit. Conduct three iterations to estimate the root of the above equation. • Find the absolute relative approximate error at the end of each iteration, and • The number of significant digits at least correct at the end of each iteration. http://numericalmethods.eng.usf.edu

  12. Example 1 Cont. Figure 3 Graph of the function f(x). http://numericalmethods.eng.usf.edu

  13. Example 1 Cont. Initial Guess: Iteration 1 The estimate of the root is The absolute relative approximate error is Figure 4 Graph of the estimated root after Iteration 1. The number of significant digits at least correct is 0. http://numericalmethods.eng.usf.edu

  14. Example 1 Cont. Iteration 2 The estimate of the root is The absolute relative approximate error is Figure 5 Graph of the estimated root after Iteration 2. The number of significant digits at least correct is 1. http://numericalmethods.eng.usf.edu

  15. Example 1 Cont. Iteration 3 The estimate of the root is The absolute relative approximate error is Figure 6 Graph of the estimated root after Iteration 3. The number of significant digits at least correct is 4. http://numericalmethods.eng.usf.edu

  16. Advantages and Drawbacks of Newton Raphson Methodhttp://numericalmethods.eng.usf.edu http://numericalmethods.eng.usf.edu

  17. Advantages • Converges fast (quadratic convergence), if it converges. • Requires only one guess http://numericalmethods.eng.usf.edu

  18. Drawbacks • Divergence at inflection points • Selection of the initial guess or an iteration value of the root that is close to the inflection point of the function may start diverging away from the root in ther Newton-Raphson method. • For example, to find the root of the equation . • The Newton-Raphson method reduces to . • Table 1 shows the iterated values of the root of the equation. • The root starts to diverge at Iteration 6 because the previous estimate of 0.92589 is close to the inflection point of . • Eventually after 12 more iterations the root converges to the exact value of http://numericalmethods.eng.usf.edu

  19. Drawbacks – Inflection Points Table 1 Divergence near inflection point. Figure 8 Divergence at inflection point for http://numericalmethods.eng.usf.edu

  20. Drawbacks – Division by Zero Division by zero For the equation the Newton-Raphson method reduces to For , the denominator will equal zero. Figure 9 Pitfall of division by zero or near a zero number http://numericalmethods.eng.usf.edu

  21. Drawbacks – Oscillations near local maximum and minimum 3. Oscillations near local maximum and minimum Results obtained from the Newton-Raphson method may oscillate about the local maximum or minimum without converging on a root but converging on the local maximum or minimum. Eventually, it may lead to division by a number close to zero and may diverge. For example for the equation has no real roots. http://numericalmethods.eng.usf.edu

  22. Drawbacks – Oscillations near local maximum and minimum Table 3 Oscillations near local maxima and mimima in Newton-Raphson method. Figure 10 Oscillations around local minima for . http://numericalmethods.eng.usf.edu

  23. Drawbacks – Root Jumping 4. Root Jumping In some cases where the function is oscillating and has a number of roots, one may choose an initial guess close to a root. However, the guesses may jump and converge to some other root. For example Choose It will converge to instead of Figure 11 Root jumping from intended location of root for . http://numericalmethods.eng.usf.edu

  24. Additional Resources For all resources on this topic such as digital audiovisual lectures, primers, textbook chapters, multiple-choice tests, worksheets in MATLAB, MATHEMATICA, MathCad and MAPLE, blogs, related physical problems, please visit http://numericalmethods.eng.usf.edu/topics/newton_raphson.html

  25. THE END http://numericalmethods.eng.usf.edu

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